ornstein_uhlenbeck

probnum.problems.zoo.filtsmooth.ornstein_uhlenbeck(rng, measurement_variance=0.1, driftspeed=0.21, process_diffusion=0.5, time_grid=None, initrv=None, forward_implementation='classic', backward_implementation='classic')[source]

Filtering/smoothing setup based on an Ornstein Uhlenbeck process.

A linear, time-invariant state space model for the dynamics of a time-invariant Ornstein-Uhlenbeck process. See e.g. Example 10.19 in Särkkä et. al, 2019. 1 Here, we formulate a continuous-discrete state space model:

\[\begin{split}d x(t) &= \lambda x(t) d t + L d w(t) \\ y_n &= x(t_n) + r_n\end{split}\]

for a drift constant \(\lambda\) and a driving Wiener process \(w(t)\). \(r_n \sim \mathcal{N}(0, R)\) is Gaussian distributed measurement noise with covariance matrix \(R\). Note that the linear, time-invariant dynamics have an equivalent discretization.

Parameters
  • rng (Generator) – Random number generator.

  • measurement_variance (Union[float, Real, floating]) – Marginal measurement variance.

  • driftspeed (Union[float, Real, floating]) – Drift parameter of the Ornstein-Uhlenbeck process.

  • process_diffusion (Union[float, Real, floating]) – Diffusion constant for the dynamics

  • time_grid (Optional[ndarray]) – Time grid for the filtering/smoothing problem.

  • initrv (Optional[RandomVariable]) – Initial random variable.

  • forward_implementation (str) – Implementation of the forward transitions inside prior and measurement model. Optional. Default is classic. For improved numerical stability, use sqrt.

  • backward_implementation (str) – Implementation of the backward transitions inside prior and measurement model. Optional. Default is classic. For improved numerical stability, use sqrt.

Returns

  • regression_problemTimeSeriesRegressionProblem object with time points and noisy observations.

  • info – Dictionary containing additional information like the prior process.

References

1

Särkkä, Simo, and Solin, Arno. Applied Stochastic Differential Equations. Cambridge University Press, 2019